Many alternatives to typical Pt-based catalysts have been developed to enhance oxygen reduction reaction (ORR) performance in acid medium due to their scarcity and high activation loss during the ORR. We synthesized mesoporous carbon nanostructures with multi-dopants such as iron, nitrogen, and sulfur as a cathode catalyst using the ordered silica templates and porphyrinic iron. The co-doped mesoporous carbon cathode catalysts exhibited a high ORR performance in an acid medium, i.e. complete ORR process and improved durability. The enhanced ORR properties of the catalysts might be ascribed to iron-containing catalytic active sites surrounded by nitrogen/sulfur species and a well-defined mesoporous carbon nanostructure
Mesoporous carbons (MCs) are highly porous materials, which offer high surface area and higher elect...
Fe-N-C catalyst obtained by high temperature pyrolysis is one of the most promising electrocatalysts...
We report the porous transition metal-nitrogen doped carbon nanostructures as cathode catalysts...
Transition-metal- and N-codoped carbon (M-N/C) catalysts have shown great promise as alternatives to...
Carbon is truly astonishing and the only element that can form so many different compounds and mater...
ABSTRACT: Development of inexpensive and sustainable cathode catalysts that can efficiently catalyze...
The synthesis, characterization, and electrocatalytic properties of mesoporous carbon materials dope...
Non-precious iron-nitrogen doped carbon material (Fe-N/C) is the most promising candidate to replace...
Non-precious iron-nitrogen doped carbon material (Fe-N/C) is the most promising candidate to replace...
A family of mesoporous nonprecious metal (NPM) catalysts for oxygen reduction reaction (ORR) in acid...
Iron/Nitrogen-doped carbon catalysts are considered to be one of the most promising candidates to re...
Fe and N dual-doped mesoporous carbon catalyst demonstrated superior catalytic activity than Pt cata...
Carbon is truly astonishing and the only element that can form so many different compounds and mater...
A highly efficient N, S co-doped porous carbon ORR catalyst was simply designed in our report from o...
Thermally removable nanoparticle templates were used for the fabrication of self-supported N-doped m...
Mesoporous carbons (MCs) are highly porous materials, which offer high surface area and higher elect...
Fe-N-C catalyst obtained by high temperature pyrolysis is one of the most promising electrocatalysts...
We report the porous transition metal-nitrogen doped carbon nanostructures as cathode catalysts...
Transition-metal- and N-codoped carbon (M-N/C) catalysts have shown great promise as alternatives to...
Carbon is truly astonishing and the only element that can form so many different compounds and mater...
ABSTRACT: Development of inexpensive and sustainable cathode catalysts that can efficiently catalyze...
The synthesis, characterization, and electrocatalytic properties of mesoporous carbon materials dope...
Non-precious iron-nitrogen doped carbon material (Fe-N/C) is the most promising candidate to replace...
Non-precious iron-nitrogen doped carbon material (Fe-N/C) is the most promising candidate to replace...
A family of mesoporous nonprecious metal (NPM) catalysts for oxygen reduction reaction (ORR) in acid...
Iron/Nitrogen-doped carbon catalysts are considered to be one of the most promising candidates to re...
Fe and N dual-doped mesoporous carbon catalyst demonstrated superior catalytic activity than Pt cata...
Carbon is truly astonishing and the only element that can form so many different compounds and mater...
A highly efficient N, S co-doped porous carbon ORR catalyst was simply designed in our report from o...
Thermally removable nanoparticle templates were used for the fabrication of self-supported N-doped m...
Mesoporous carbons (MCs) are highly porous materials, which offer high surface area and higher elect...
Fe-N-C catalyst obtained by high temperature pyrolysis is one of the most promising electrocatalysts...
We report the porous transition metal-nitrogen doped carbon nanostructures as cathode catalysts...
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